Condair 2558982 D MH2 Eng Engineering Manual

Brand: Condair

Model: 2558982 D MH2 Eng

Type: Engineering Manual

This manual is also suitable for

Series

Engineering

Manual

Includes technical specifications,

guidelines, and options for selection

and application of MHTC / MHB

Evaporative humidifiers / air coolers

2558982-D | 24 OCT 2011

Your guide to selecting and specifying Nortec evaporative humidifiers / air coolers

Thank you for choosing Nortec.

Proprietary Notice

This document and the information disclosed herein are proprietary data of WALTER MEIER LTD. Neither this

document nor the information contained herein shall be reproduced, used, or disclosed to others without the

written authorization of WALTER MEIER LTD., except to the extent required for installation or maintenance of

recipient’s equipment. All references to the Nortec name should be taken as referring to WALTER MEIER LTD.

Liability Notice

Nortec does not accept any liability for installations of humidity equipment installed by unqualified personnel or

the use of parts/components/equipment that are not authorized or approved by Nortec.

Contents

1 Introduction

1 The MHTC/MHB Evaporative

Humidifier / Air Cooler

1 How the MH works

2 Humidification / Cooling

4 MH Models

6 MH Humidifier Features

7 MH Components

9 MH Specifications and

Dimensions

13 Specifying the MH

14 MH Specification Checklist

15 MH Model

15 Duct Module Size

15 Number of Stages

15 Media Boxes Thickness

17 Humidification Load

19 Specifying for Air Cooling

21 MH Controls

21 MH Series Options and

Accessories

24 Sample Specification

29 MH Installation

Requirements

30 Location – Duct Module

31 Location – MHTC Reflow

Hydraulic Unit

32 Plumbing

34 Electrical

35 MHTC/ MHB Controls

39 Control Wiring

36 Nortec Controls

39 Control Location

41 Nortec Links XPS (MHTC Only)

44 Warranty

1 | The Nortec MHTC / MHB

The MHTC/MHB Evaporative Humidifier / Air Cooler

The MHTC / MHB is an evaporative type humidifier / air cooler that provides humidifier and

cooling adiabatically. The MHTC/MHB uses evaporative media that is placed in the air stream

of an air handler or duct. The media is wetted with potable, RO, or DI water. The energy in the

air passing through the media evaporates some of the water. The result is an increase in the

humidity of the air and a decrease in the temperature of the air.

The main applications of MH series humidifiers / air coolers are either humidification of

buildings which have a high humidification load and which can also benefit from the adiabatic

cooling effect or simply the adiabatic cooling of air for building temperature control. Since the

MH depends on the energy in the air passing through the evaporative media to evaporate water,

the MH requires inlet air that is warm and dry for most efficient operation.

MH Media

One of the most unique features of all MH series humidifiers / air coolers is their patented

synthetic v-profile evaporative media which does not break down over time and release

microscopic fibers which could be a health hazard. In addition the MH media is treated with an

antimicrobial agent and meets UL900 Class 1 flame and smoke in the USA, ULC-S111-07 Class

2 in Canada making it the best media available for evaporative humidification / air cooling.

How the MH works

Figure 1: MHTC Reflow Schematic

Overflow

P Trap

UV Light

Pump

Drain Valve

Reservoir

Float

Conductivity

Sensor

Drain

Staging Valves

Spray Bar Lines

Spray Bars

Media

Boxes

Fill Valve

Check Valve

Drain Pan

Staging Manifold

Pressure

Equalization line

To duct

Stage 1 Stage 2 Stage 3

The Nortec MHTC / MHB | 2

Figure 2: MHTC Flow / MHB Schematic

Humidification / Cooling

 When a demand is received, the MH will;

MHTC Reflow - turn on its pump and UV light and after a short delay activate staging valves

as required to meet demand. Water will flow through the UV light, staging manifold, open

staging valves, and spray bar lines to the spray bars.

MHTC Flow / MHB – Activate staging valves as required to meet demand. Water will flow

through the staging manifold, open staging valves, and spray bar lines to the spray bars.

 Each spray bar has a series of holes which allow water to flow out over a section of

evaporative media. As Water runs down the evaporative media some of it is evaporated by

air passing through the media. As a result of the evaporation the humidity of the air is

increased and the temperature of the air is decreased.

 Any water that is not evaporated collects in the drain pan and;

MHTC Reflow - flows back to the hydraulic unit reservoir to be recirculated. As water is

evaporated the water level in the reservoir decreases and the float opens. The MH then

refills until the float is closed.

MHTC Flow / MHB – flows down to drain. The MHTC Flow / MHB does not have a reservoir

or pump and water simply flows through the staging valves when they are open using supply

water pressure to generate flow.

 During operation the controller responds to changes in demand by opening and closing

staging valves. This allows the MH to match its output to demand.

P Trap

Drain

Staging Valves

Spray Bar Lines

Media

Boxes

Check Valve

Drain Pan

Staging Manifol

Spray Bars

Stage 1 Stage 2 Stage 3

3 | The Nortec MHTC / MHB

 When demand is satisfied the MH will;

MHTC Reflow – turn off all staging valves and after a delay turn off the UV light and pump.

MHTC Flow / MHB – turn off all staging valves.

Water Management (MHTC Reflow only)

 During the evaporation process minerals are left behind by the evaporated water resulting in

an increase in concentration in the remaining water. To prevent minerals from collecting in

and fouling the evaporative media more water is supplied to the media than can be

evaporated. The unevaporated water carries the minerals left by evaporated water to the

reservoir.

 To prevent the mineral concentration from increasing to the point where excess water can

no longer dissolve minerals left in the media by evaporated water, the MH will periodically

flush the reservoir. The method used to determine when to flush the tank is configured

using display and keypad. Two triggers can be set.

Trigger 1

Time – The MHTC flushes the tank at a specific time every day.

Periodic – The MHTC flushes the tank after a fixed number of operating hours.

Demand - The MHTC flushes the tank after a fixed number of weighted hours ( weighted

hours = hours of operation x demand% )

Trigger 2

Cycle – The MHTC flushes the tank after a fixed number of fill cycles.

μSSensor (requires optional conductivity sensor)– Flushes the tank when the conductivity

sensor indicates the concentration of minerals exceeds a configured maximum value.

 In general more frequent drains result in less maintenance. The amount of water drained to

control mineral concentration in the recirculating water can be configured in the MHTC’s

software.

Pressure Equalization Line (MHTC Reflow only)

In order to ensure that water flows properly from duct module’s drain pan to the MHTC Reflow’s

reservoir a pressure equalization line must be installed between the reservoir and the duct

down stream of the duct module. The line ensures pressure in the reservoir and duct are equal

and water flows properly from the drain pan to the reservoir.

UV Light

A UV light is standard on the MHTC Reflow and optional on the MHTC Flow / MHB. The UV light

prevents bacteria in the supply water or reservoir from being introduced into the evaporative

media. It does not kill bacterial that may be introduced into the media in the air stream.

Box Drying / Box Washing

In order to prevent bacteria from growing in the evaporative media the MH includes a box drying

cycle that allows the media to dry out. The MH will periodically close all staging valves and allow

the media to dry out regardless of demand.

In order to wash minerals from and prolong media life the MH includes a wash cycle which turns

on all staging valves regardless of demand or control status and rinses the media.

The Nortec MHTC / MHB | 4

MH Models

The MH2 is available in three models (see Figure 3: MH Models and Table Table 3: MH

Specifications).

 MHTC Reflow - provides state of the art control technology with staged output to match

demand. The Reflow model also includes a hydraulic unit that provides maximum water

conservation by recirculating unevaporated water.

 MHTC Flow - provides the same state of the art control technology including staging of

output to match demand but without the hydraulic unit for recirculating water.

 MHB - provides basic operation without any user configurable features.

Figure 3: MH Models

Each MH model is coupled with a duct module that contains the evaporative media used for

humidifying / cooling the duct air. The duct module is basically the same for each model with

the exception of the number of spray bars which are used for staging output.

MHTC Reflow MHTC Flow MHB

Single StageMulti Stage

5 | The Nortec MHTC / MHB

MHTC Reflow vs MHTC Flow and MHB

All units run a small excess of water over the media during operation to wash minerals away

and prolong media life. The MHTC Flow and MHB direct this water directly to drain, while the

MHTC REflow recaptures and reuses the water. The REflow is the most water efficient model

and recommended for good quality potable water and treated water types. Flow models are

recommended for areas with hard potable water, or where a central wastewater recovery

strategy is being used. See Table 1: MHTC Reflow / MHTC Flow / MHB Features for a listing of

the additional features provided by the MHTC Reflow.

MHTC Flow vs MHB

The main difference between the MHTC Flow and the MHB model is in their controls and user

interface. The MHTC model’s Total Controller provides a graphic LCD screen and keypad,

accepts additional control signals and has optional building management system connectivity

(BACnet, Lonworks, Johnson N2, and Modbus). The MHB controls provide the basic

functionality required for operation. See Table 1: MHTC Reflow / MHTC Flow / MHB Features

for a listing of the two control systems features. Figure 4 shows the differences in the MHTC’s

and MHB’s user interface.

Figure 4: MHTC and MHB User Interfaces

LCD Display

Status LEDs

Lights

Software Drain

Button

(Initiates a software

controlled drain)

On/Off Switch

(Turns humidifier

On/Off)

MHTC

MHB

Inside Control Box

Input Buttons

(MHTC used to

navigate screens

and for configuration,

MHB for factory

configuration only.)

Outside Control Box

The Nortec MHTC / MHB | 6

The MHTC LCD screen and keypad - allow easy configuration of all features of the MHTC

humidifier such as control signals, box washing / drying, tank flushing, maintenance reminders,

and others. The LCD screen also provides status information indicating current status and

configuration, service and fault messages, and troubleshooting information. One of the key

features of the MHTC controller is tracking operation and providing information about service

requirements to make it easy to service and maintain the MHTC.

MH Humidifier Features

From their patented evaporative media and modular design to the MHTC’s advanced control

system with optional internet based monitoring capability to the MHTC Reflows advanced water

conservation technology all MH models include many advanced features that set them apart

from other evaporative humidifiers / air coolers. The following list outlines some of the MH

series key features.

Table 1: MHTC Reflow / MHTC Flow / MHB Features

General MHTC Reflow

MHTC Flow MHB

Patented synthetic V-profile evaporative media

X X X

Stainless steel duct / media box frames, and drain pan

X X X

Operates on DI/RO, Potable, Softened Water

X X X

Optional low pressure drop mist eliminator

Optional Optional Optional

Recirculating water system

Direct water system

X X

Wash cycles and box drying

Configurable Configurable Factory Set

Step-Control 1,2, or 3 stage

X X X

Ultra violet water treatment

X Option Option

Installation / Maintenance

All electrical components outside of duct

X X X

Modular easy to change media boxes

X X X

Programable maintenance settings

X X

Wide range of water management options

Electronics

Graphic display screen with keypad input

X X

LED status indicators

X X (2 lights)

Remote status via dry points

X X

Staged output based on modulating signal

1-3 Stages 1-3 Stages 1 stage

Proportional and integral internal control from humidity

sensor inputs

X X

Manual capacity adjustment

X X

On/Off operation

X X X

Compatible with all standard Industrial controls

X X

BMS (Lonworks, BACnet, Johnson, Modbus)

Option Option

Other

UL900 Class 1 Flame and Smoke USA

X X X

ULC-S111-07 Class 2 Flame and Smoke Canada X X X

7 | The Nortec MHTC / MHB

MH Components

Figure 5: MH Humidifier Components

High Voltage

Terminal Block

On/Off Switch

Display and Keypad

Drain Outlet

Media Boxes

Spray Bar

Cap

Spray

Bars

Right

Side Panel

Duct Seal

Mist

Eliminator

Intermediate

Member

Drain

Pan

Water Lines

Pressure

Equalization

Line

Drain

Overflow

Hydraulic

Unit

Drain Pan Drain

Control

Box

Conductivity

Sensor

Float

Check

Valve

Fill

Valve

Staging

Manifold

Staging

Valve

Pressure

Equalization

Line

Pump

UV Light

Reservoir

Drain Valve

Fuse Block

Pump and U

Light Relay

Transformer

Conductivity

Transmitter

Low Voltage

Terminal

Block

(Hydraulic

Unit )

The Nortec MHTC / MHB | 8

Description of Components

Table 2: Humidifier Components

Component Function of Component

Check Valve Provides back flow protection for supply water line.

Conductivity Sensor

/Transmitter

Sensor measures conductivity of water in the reservoir. Transmitter

sends measured value to control box for use in water quality control.

Control Box /

Display and Keypad

Controls all functions of the humidifier’s operation and provides user

interface for configuration of the humidifier.

Drain Pan Collects unevaporated water from media

or recirculation or draining.

Drain Pan Drain Drain pan connection to hydraulic unit reservoir.

Drain Outlet Drain connection from the hydraulic unit.

Drain Overflow Provides protection from overfilling the drain pan.

Drain Valve Drains water from the reservoir.

Duct Seal Prevents duct air flow from bypassing the humidifier.

Fill Valve Controls makeup water flow to humidifier based on float level.

Float Measures water level in reservoir to prevent over filling.

Fuse Block Overcurrent protection for

pump and UV light.

High Voltage

Terminal Block

Primary voltage connection on hydraulic unit and in control box.

Hydraulic Unit Collects water from the drain pan and pumps, treats with UV light, and

stages water to media. Fills and drains reservoir to control water quality.

Intermediate

Member

Structural member supports media boxes.

Low Voltage

Terminal Block

Hydraulic Unit –

connects control box inputs to the hydraulic unit.

Control Box – provides connection for control signals and safety loop.

Media Boxes Surface from which water is evaporated for humidification/cooling.

Available in 8 in. (20 cm) or 12 in. (30 cm) thickness.

Mist Eliminator Captures any water droplets that are carried off the media boxes with air

flow in high duct speed applications.

On/Off Switch Turns power On/Off to humidifier controller. Note: Turn off humidifier

disconnect to shut off primary power to the humidifier.

Pressure

Equalization Line

Balances pressure in hydraulic unit reservoir with pressure in duct to

ensure proper water flow to reservoir from drain pan.

Pump Pumps water from the reservoir to the media boxes.

Pump and UV Light

Relay

Turns on power to the UV light and pump based on signal from the

control box.

Reservoir Collects water from the drain pan for recirculation / draining.

Side Panel, Right Structural member supports media boxes and spray bar cap.

Spray Bar Cap/

Spray Bars

Distributes water to the media boxes and prevents water from spraying

anywhere else.

Staging Manifold /

Valve(s)

Controls flow o

water to media boxes based on demand.

Transformer Steps primary voltage down to 24 VAC for the controller and internal

components such as the fill valve and drain valve.

UV Light Eliminates any bacteria in the water being pumped to the media boxes.

Water Lines Supply water lines from hydraulic unit to spray bars.

9 | The Nortec MHTC / MHB

MH Specifications and Dimensions

Table 3: MH Specifications

MHB

MHTC

Flow

MHTC

Reflow

Voltage

120 VAC / 60 Hz 120 VAC / 60 Hz 120 VAC / 60 Hz

Control signals

On/Off

Dry set of points

VDC 0-5, 1-5, 0-10,

2-10, 0-16, 3.2-16

mA 0-20, 4-20

VDC 0-5, 1-5, 0-10,

2-10, 0-16, 3.2-16

mA 0-20, 4-20

Max No. of Stages

3 3 3

Water supply

3/4 in. BPP, 1/2 in.

NPT adapter provided

1/2 in/ FPT 3/4 in. BPP, 1/2 in.

NPT adapter provided

Water drain

2 in. (50.8 mm) OD

ube

2 in. (50.8 mm) OD

ube

2 in (50.8 mm) ID

hose

Control accuracy

Depends on air conditions, number of stages, and control setup

Supply water pressure

30-145 psi (2-10 Bar)

Supply water temperature

41-113 ºF (5-45 ºC)

Water quality

Tap water, reverse osmosis, softened or fully demineralized water.

Max. allowable air velocity through

media

750 fpm (3.8 m/s)

1100 fpm (5.5 m/s) with mist eliminator.

Pressure drop

Typically 0.44 IWC (250 Pa) @ 500 fpm (2.5 m/s) and 90% RH

Ambient conditions (control unit)

34 –104 ºF (1- 40 ºC) Max 75% RH

Fire classification of evaporative media

UL900 Class 1 USA, ULC-S111-07 Class 2 Canada

Figure 6: MHTC Reflow/Flow Control Box Dimensions

12.0 in.

30.5 cm

16.7 in.

42.5 cm

14.3 in.

36.3 cm

4 x 5/16 in

(8 mm)

6.2 in.

15.6 cm

17.5 in.

44.4 cm

The Nortec MHTC / MHB | 10

Figure 7: MHB Control Box Dimensions

Figure 8: MH Duct Module Dimensions

4.2 in.

10.7 cm

1.0 in.

2.7 cm

TYP

74.6 in.

189.6 cm

8.4 in.

21.5 cm

4.9 in.

12.5 cm

2.8 in.

7 cm

4.1 in.

10.3 cm

H=24 - 144 in.

(0.6 - 3.7 m)

12 in. (30 cm) Supplied

Cut to Desired Length

16.6 in.

42.3 cm

0.6 in.

1.6 cm

W - 1.2 in (W - 3.2 cm)

W/2 - 0.6 in.

(W/2 - 1.6 cm)

15.8 in.

40.2 cm

W = 24 - 144 in.

(0.6 - 3.6 m)

0.2 in.

0.6 cm

6 X

Overflow

2 in. (50.8 mm)

Tube

Drain

2.0 in (50.8 mm)

Tube

1-3 x Spray Bar

1/2 in. (12.7 mm)

Tube

9.3 in.

23.6 cm

6.0 in.

15.2 cm

10.75 in.

27.3 cm

11.5 in.

29.2 cm

5.4 in.

13.6 cm

4 x 0.31 in.

(8 mm)

11 | The Nortec MHTC / MHB

Figure 9: MHTC Reflow Hydraulic Unit Dimensions

Figure 10: MHTC Flow/MHB Multi Stage Hydraulic Unit Dimensions

11.8 in.

29.9 cm

2.4 in.

6.1 cm

2.0 in.

5.2 cm

12.1 in.

30.7 cm

2.1 in.

5.3 cm

6.4 in.

16.4 cm

2.6 in.

6.7 cm

2.6 in.

6.7 cm

8.2 in.

20.8 cm

2.4 in.

6 cm

17.6 in.

44.6 cm

15.6 in.

39.5 cm

11.5 in.

29.2 cm

2.0 in.

5.1 cm

2.0 in.

5.2 cm

10.0 in.

25.5 cm

2.5 in.

6.4 cm

Water Inlet

3/4 in BSP

(1/2 in. NPT

Adapter

provided)

Drain Pan

Connection

2 in. Tube

Drain

2 in. ID Hose

Spray Bar

Connections

1-3 x 1/2 in.

(13 mm) Hose Barb

Press. Equal.

1/2 in. (13 mm)

Hose Barb

Electrical

3 x 7/8 in.

(22 mm)

24.1 in.

61.3 cm

11.87

30.15

8.05

20.45

9.87

25.07

1.00

2.55

11.88

30.16

1.32

3.36

1.31

3.33

1 - 3 x 1/2 in. OD

Barbed Hose

2 x 1/4 in.

(6.4 mm)

2 x Water Tight

Strain Relief

Electrical Connection

Water Inlet

1/2 in. NPT

Drain

1/2 in. NPT

The Nortec MHTC / MHB | 12

Figure 11: MHB Single Stage Hydraulic Unit

1.8 in.

4.4 cm

2.7 in.

6.8 cm

4.3 in.

10.9 cm

Water Inlet

3/4 in GHT

Spray Bar

Connection

1/2 in (13 mm)

Hose Barb

2 x 0.3 in.

(7.6 mm)

13 | Specifying the MH Humidifier / Air Cooler

Specifying the MH

Humidifier / Air Cooler

14 MH Specification Checklist

15 MH Model

15 Duct Module Size

15 Number of Stages

15 Media Boxes Thickness

17 Specifying for Humidification

17 Humidification Load

17 Example: Mixed Air System

17 Example: Makeup Air System

18 Required Media Box Thickness for Humidification

19 Specifying for Air Cooling

19 Direct Air Cooling

20 Indirect Air Cooling

21 MH Controls

21 MH Series Options and Accessories

24 Sample Specification

Specifying the MH Humidifier / Air Cooler | 14

MH Specification Checklist

The following checklist can be used to specify the MH Series Humidifier / Air Cooler. A

description of each selection is provided later on in this section.

Unit Tag: _______________ Zone _______________

Location or Elevation

MH Model

 MHTC Reflow  MHTC Flow  MHB

Duct Module Size

 in.  cm

Duct Width ______________ Duct Height

Number of Stages

 1  2  3

Humidification 

Air Before Humidification Temp RH

Air After Humidification Temp RH

Required Effectiveness

Air Cooling 

Air Before Cooling DB Temp WB Temp

Air After Cooling DB Temp

Required Effectiveness

Media Box Thickness

Duct Velocity 8 in. (20 cm) Eff. 12 in. (30 cm) Eff.

 Use 8 in. (20 cm) Media  Use 12 in. (30 cm) Media

Control

Humidity

 Demand  Transducer  On/Off Signal Type _______

 By Others  By Nortec, Part No_______________

Temperature

 Demand  On/Off  By Others

Additional Options (Mist Eliminator, Links XPS, Air proving… See Table 6: Options and

Accessories)

_________________________________________________________________________________

15 | Specifying the MH Humidifier / Air Cooler

MH Model

The decision of which MH model to use depends primarily on the application, the need for

advanced control capabilities, and the need to minimize water usage. Table 4 provides an

overview of the items to consider when selecting the MH Model for your application.

Table 4: MH Model Selection

MH Model MHTC Reflow MHTC Flow MHB

Minimize water

usage

Treated water Best

Potable water X

Hard water X

Best

BMS Control X

Humidification Best

Best

Coolin

Best

Low Cost

Duct Module Size

In order to minimise the air velocity through the media the duct module should be sized to

match as closely as possible the cross section of the duct. Specifying a smaller duct module

and blanking off large area of the duct will result in poor performance.

The MH duct module is available in sizes ranging from 24 W x 24 H to 144 W x 144 H. Duct

modules are supplied in width increments of 4 inches and height increments of 3 in. See Figure

8: MH Duct Module Dimensions for duct module dimensions.

To provide installation clearance the duct width should be at least 1.5 in. (38 mm) wider and

0.5 in. (13 mm) taller than the specified duct module.

Max Module Unit Width = Duct Width – 1.5 in. (38 mm)

Max Module Unit Height = Duct Height – 0.5 in. (13 mm)

Number of Stages

Staging provides a means for the MH unit to match its output to demand and is primarily used

in humidification applications. Both the MHTC Reflow and the MHTC Flow are available with

between 1 and 3 stages. The MHB has only one stage available.

Media Boxes Thickness

The MH duct module is available with either 8 in. (20 cm) or 12 in. (30 cm) thick evaporative

media boxes. The maximum effectiveness in humidification and cooling is dependent on the

thickness of the media boxes and the velocity of the air through the boxes as shown in Figure

12: Maximum MH Effectiveness vs Air Velocity. The media box thickness that should be used

depends on the effectiveness required to meet either the humidification or cooling load.

The effectiveness of the MH is defined as;

Effectiveness = (RH after – RH before)/(100% - RH before)

Where RH before and RH after are the relative humidity before and after the MH duct module.

Specifying the MH Humidifier / Air Cooler | 16

Figure 12: Maximum MH Effectiveness vs Air Velocity

100

200 (1) 400 (2) 600 (3) 800 (4) 1000 (5)

Velocity fpm (m/s)

x Effi

(

)

12 in. (30 cm) Media 8 in. (20 cm) Media

500 fpm (2.5 m/s)

500

94% at 500 fpm

84% at 500 fpm

Note:.

 See Required Media Box Thickness for Humidification on page 18 for an explanation of

how to determine the required media box thickness for humidification.

 See Example Direct Cooling on page 19 for an explanation of how to determine the

required media box thickness for air cooling applications..

17 | Specifying the MH Humidifier / Air Cooler

Specifying for Humidification

Humidification Load

Although Nortec’s Humidifier Engineering and Load-sizing Program (HELP) does not currently

allow selection of MH technology the Atomizing Nozzle selection can be used to calculate the

humidification load. Figure 13: Mixed Air System Humidity Load shows a schematic from HELP

calculating the load for an application in Chicago. The software can be downloaded from

www.humidity.com. Nortec Publication 2553856 - Humidification Load Calculation also

provides information on selecting a humidity setpoint, the effects of relative humidity, and

methods for manually calculating the humidification load.

Example: Mixed Air System

Chicago Illinois, Mixed air system, room design conditions of 72ºF 50% RH, Air Volume of

50,000 cfm, makeup air volume of 7,500 cfm, 10 x 10 ft duct.

Figure 13: Mixed Air System Humidity Load

A) Outdoor Air = -1 ºF (-18 ºC) 53% RH 7,500 cfm

B) Return air = Room Design = 72 ºF (22 ºC) 50%RH, 42,500 cfm.

C) Mixed Air = Outdoor Air + Return Air = 61 ºF (16 ºC) 63% RH, 50,000 cfm

D) Preheated Air (before humidification) = 90 ºF (32 ºC) 24% RH

E) After Humidification = 85 ºF (29 ºC) 33% RH,

Based on these conditions the HELP software calculates a humidification load of 223 lb/hr.

Example: Makeup Air System

Figure 14: Makeup Air System Humidity Load shows the above system in Chicago if it were a

makeup air system instead of a mixed air system.

Chicago Illinois

Mixed Air System

Calculated Load = 223 lb/hr

Chicago Illinois

Mixed Air System

Calculated Load = 223 lb/hr

Chicago Illinois

Mixed Air System

Calculated Load = 223 lb/hr

Chicago Illinois

Mixed Air System

Calculated Load = 223 lb/hr

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